EP0775466A2 - Mapping-Katheter und Methode zur Durchführung - Google Patents

Mapping-Katheter und Methode zur Durchführung Download PDF

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Publication number: EP0775466A2
Authority: EP; European Patent Office
Prior art keywords: signals; catheter; patient; electrode; location
Prior art date: 1995-11-22
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.): Granted

Application number

EP96308472A

Other languages

English (en)

French (fr)

Other versions

EP0775466A3 (de

EP0775466B1 (de

Inventor

Frederik H.M. Wittkampf

Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)

Medtronic Inc

Original Assignee

Medtronic Inc

Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)

1995-11-22

Filing date

1996-11-22

Publication date

1997-05-28

1996-11-22 Application filed by Medtronic Inc filed Critical Medtronic Inc

1997-05-28 Publication of EP0775466A2 publication Critical patent/EP0775466A2/de

1999-03-31 Publication of EP0775466A3 publication Critical patent/EP0775466A3/de

2003-10-22 Application granted granted Critical

2003-10-22 Publication of EP0775466B1 publication Critical patent/EP0775466B1/de

2016-11-22 Anticipated expiration legal-status Critical

Status Expired - Lifetime legal-status Critical Current

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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B5/00—Measuring for diagnostic purposes; Identification of persons
- A61B5/06—Devices, other than using radiation, for detecting or locating foreign bodies ; Determining position of diagnostic devices within or on the body of the patient
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B5/00—Measuring for diagnostic purposes; Identification of persons
- A61B5/06—Devices, other than using radiation, for detecting or locating foreign bodies ; Determining position of diagnostic devices within or on the body of the patient
- A61B5/065—Determining position of the probe employing exclusively positioning means located on or in the probe, e.g. using position sensors arranged on the probe
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B5/00—Measuring for diagnostic purposes; Identification of persons
- A61B5/06—Devices, other than using radiation, for detecting or locating foreign bodies ; Determining position of diagnostic devices within or on the body of the patient
- A61B5/065—Determining position of the probe employing exclusively positioning means located on or in the probe, e.g. using position sensors arranged on the probe
- A61B5/068—Determining position of the probe employing exclusively positioning means located on or in the probe, e.g. using position sensors arranged on the probe using impedance sensors
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B34/00—Computer-aided surgery; Manipulators or robots specially adapted for use in surgery
- A61B34/20—Surgical navigation systems; Devices for tracking or guiding surgical instruments, e.g. for frameless stereotaxis
- A61B2034/2046—Tracking techniques
- A61B2034/2051—Electromagnetic tracking systems
- A61B2034/2053—Tracking an applied voltage gradient
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B5/00—Measuring for diagnostic purposes; Identification of persons
- A61B5/72—Signal processing specially adapted for physiological signals or for diagnostic purposes
- A61B5/7203—Signal processing specially adapted for physiological signals or for diagnostic purposes for noise prevention, reduction or removal
- A61B5/7207—Signal processing specially adapted for physiological signals or for diagnostic purposes for noise prevention, reduction or removal of noise induced by motion artifacts

Definitions

This invention relates to systems and methods for mapping catheter electrode position within a patient's body and, more particularly, a system and method which enables automatic real time three-dimensional measurement of catheter electrode position with an accuracy well less than 1 cm.
the need for accurate positioning information is further illustrated by the standard method of cardiac mapping and subsequent ablation of the site of a ventricular tachycardia in a patient.
the catheter is introduced into the atrium or ventricle, and the tip is positioned at an endocardial site.
a tachycardia is induced, and the tip is moved to different positions, where the timing of sensed intracardiac signals is compared with ECG signals.
Each position and the local activation moment must be accurately determined and recorded, so that an accurate map can be made from which the tachycardia focus can be determined.
the ablation tip must be accurately repositioned with respect to the focus.
cardiologists generally employ a monoplane and sometimes biplane fluoroscopic imaging to estimate the position of the catheter within the heart.
fluoroscopy it is not yet possible to obtain automatic and objective three-dimensional information about the catheter position without laborious three-dimensional reconstruction from fluoroscopic images.
automatic measurement of the catheter position would be extremely useful during many interventional catheterization procedures.
a magnetic system employs a special element in the catheter tip, the size and configuration of which make it useful for only certain catheter types. Given the many different types of catheters in use for different applications, a system and technique that would be able to accurately locate the position of any type catheter would constitute a significant advance.
the patent art contains a great many devices and systems directed toward catheter location. These systems embrace a number of different approaches, such as securing an inductor coil adjacent to the catheter tip with leads extending from the coil along the catheter for connection to external indicating equipment; positioning a varying magnetic field responsive component on the catheter or implement to be positioned, and using a movable external magnetic field source; use of a probe which generates a small magnetic field which is disturbed by a magnetically permeable metal in the device to be positioned; and the construction of various types of cardiac mapping probes and electrode configurations.
these approaches have not proven commercially successful for one reason or another, and there remains a substantial need in the art for an improved technique of catheter mapping, particularly as applicable to cardiac catheterization and ablation procedures.
a method of three-dimensional measurement of positions within a patient comprising:
a catheter mapping method for mapping locations within a patient's heart comprising:
a system for use in carrying out catheter mapping of a body location within a patient comprising:
the invention thus provides a catheter mapping system and method for mapping locations within a patient, which provides an improved accuracy of location, the accuracy being of the order of a few mm.
the preferred embodiment involves applying three orthogonal (x, y, z) current signals through the patient, directed substantially toward the area to be explored, such as the patient's heart, each of the signals having a respective characteristic which renders it distinguishable from the other two orthogonal signals.
the catheter which has been introduced into the body area to be explored, has a tip electrode or another mapping electrode positioned in the vicinity of the distal tip, which is connected through to three sensing channels.
the sensing channels sense the signals induced at the electrode location by the three respective applied signals, which sensed signals are used to calculate the location of the electrode.
a simple calibration procedure uses two electrodes at a known interelectrode distance on the catheter, and three quick measurements for determining the correlation of the respective sensed x, y and z signals with the tip position.
the external signals are orthogonal, but can be slightly off orthogonal.
the externally applied signals are suitably constant current pulse currents at frequencies in the range of about 25-50 kHz, with the constant current pulses having a current in a range centered around about 0.1 mA. While these parameters have been found to be useful for avoiding interference with ECG pickups, other parameters can be used.
the sensed x, y and z signals are separated by digital filters, or other suitable narrow pass filters, with the resulting signals passed through a low pass filter which has a cutoff designed to eliminate variations due to cardiac contraction and patient respiration.
Fig. 1 is a block diagram illustrating the major components of a system according to this invention as used for catheter mapping and related procedures.
Fig. 2(a) shows a normal electrocardiogram above and a signal representative of respiration below, illustrating the relative frequencies
Fig. 2(b) illustrates a sensed location signal, and shows variations due to cardiac contraction and patient respiration
Fig. 2(c) illustrates the sensed location signal with the high frequency filtered out, but still containing variations due to contraction and respiration (Vc), and the signal after the low frequencies have also been filtered out (V).
Fig. 3 is a flow diagram setting forth the primary steps of catheter mapping and ablation in accordance with this invention.
Fig. 4 is a diagram representing a plot of three-dimensional location data obtained in accordance with this invention.
This invention is based upon using the patient, and in a specific embodiment example, the patient's heart, as a potentiometer in three orthogonal directions.
Orthogonal high-frequency current sources are utilized to transmit a relatively low current in each of three respective orthogonal directions through the patient, directed toward or near the body area of interest.
respective current sources 40, 41 and 42 are used to generate signals applied to electrodes which are shown diagrammatically as electrode pairs x, x_; y, y_; and z, z_.
a catheter 46 is introduced into the patient, and for purposes of the ongoing discussion it will be assumed that the distal end of the catheter is introduced into the patient's heart.
the catheter has at least two electrodes, illustrated at 47, 48.
Electrode 47 is at about the tip end of the catheter, and can be positioned at or adjacent to the heart wall area of interest. As used herein, the tip electrode may be actually at the tip, or displaced somewhat proximally from the tip but in the distal tip region of the catheter.
the second electrode 48 is positioned a predetermined distance D from the electrode 47.
the catheter may contain three, four or more electrodes, so long as it contains at least a position-detecting electrode, preferably at or near the tip, and provides a pair of electrodes separated by a predetermined distance D, for calibration purposes as set forth below.
a PTCA catheter can have two electrodes near its tip, or on opposite sides of the balloon, with suitable connections for use in the practice of this invention.
the three electrical signals applied to the patient are high-frequency constant current pulse signals, of the form illustrated in Fig. 2a, each at a slightly different frequency.
the current source which drives the x, x_ electrodes, designated CS x may operate at 30 kHz, with a current of about 0.1 mA; CS y operates at 31 kHz; and CS z operates at 32 kHz.
all three sources can operate at about the same frequency, but are time multiplexed so that they can be distinguished upon subsequent pick-up of sensed signals.
some characteristic such as frequency, phase or time is adjusted for each of the three applied signals, so that three signals can be sensed in the patient and then separated out as respective x, y and z signals.
the range of 25-50 kHz is advantageous for practice of this invention, because it is well above the usual upper cut off frequency of bandpass endocardial electrogram amplifiers. Lower frequencies may also be used, but in such case specially trimmed filters are required for all electrogram amplifiers to eliminate the external signals. If, however, the invention is practiced with procedures where no endocardial electrograms are recorded, e.g. PTCA, then the external source frequencies may be much lower.
the orthogonal signals may have any current level suitable for avoiding noise pickup in other signals. And while current pulses are preferred because they eliminate the influence of varying skin contact impedance, the signals may be voltage pulses in some applications. Thus, the optimum frequency, as well as the signal level, will depend upon the application.
the tip or mapping electrode 47 is connected through to the three detection filters 50, 54, 57, each of which is adjusted to be sensitive to a respective one of the three current source frequencies.
a voltage is sensed between electrode 47 and reference electrode R, suitably a surface electrode on the patient's skin.
the constants, or sensitivities, a, b and c are unknowns which must be determined, and are expressed in mV/mm.
a catheter is employed that has two electrodes with a known interelectrode distance (D, in mm).
One of the two electrodes may be the tip electrode, or the two electrodes may be two separate electrodes, such as two electrodes of a quadripolar catheter.
This calibration arrangement requires two sets of equally sensitive detection amplifiers and signal processing paths for each direction as indicated diagrammatically in Fig. 1.
V x1 ax 1
V y1 by 1
V z1 cz 1
V x2 ax 2
V y2 by 2
V z2 cz 2
the system may not be ideally homogeneous, meaning that any given set of obtained measurements is not absolutely correct. This is not a basic problem to obtaining accurate measurements, since the calculations can be continuously performed automatically during catheterization, and the results can be averaged. Thus, as long as the catheter is being manipulated, the calibration measurements and calculations can be repeated any number of times, and a resulting average obtained that provides a very real and accurate position determination. Note also that it is easy with this invention to calculate the calibration constants, or sensitivities, for different areas of the heart chamber. This could be useful since the measurements may not be precisely linear. By recalculating the calibration constants for different areas of the heart chamber, calculated relative positions can be reliably obtained for clinical use in mapping and ablation purposes.
a catheterization can be performed by assuming a "ballpark" sensitivity based, for example, on the weight or thorax dimensions of the patient. Note also that it is not usually necessary to map the whole heart chamber. Mapping and subsequent ablation is usually only performed in a certain part or area of the chamber where the arrhythmia originates. Linearity is much better when the mapping is confined to a limited area of that heart chamber.
calibration can be achieved without using two electrodes in the heart, by assuming certain cardiac dimensions while only measuring V x , V y , and V z on the mapping electrode.
the catheter before entering the left ventricle, the catheter has to be manipulated through the aorta descendens, the aortic arc, and the aortic valve. With the patient on his or her back, the depth from the aorta descendens to the aortic valve is approximately 5 cm. The distance from the aortic valve to the left ventricular apex is known to be close to 10 cm.
catheter 46 is shown having a tip electrode 47, which is manipulated into some position within the heart chamber.
a reference electrode R on the surface of the patient's body, is connected to a lead to provide a reference potential.
the sensed voltage between tip electrode 47 and electrode R is connected through a switch matrix 49 to each of the three filters 50, 54 and 57, which are digital filters or other suitable narrow bandpass filters designed to pick up the respective signals generated at 40, 41 and 42 respectively.
the three current sources are driven by respective clocks indicated at 44, which generate the basic timing signals at f x , f y and f z .
each of the filters 50, 54 and 57 is coupled through a corresponding amplifier 51, 55, 58, and then through a low pass filter 52, 56, 59.
the low pass filters have a cutoff of about 0.1 Hz, to filter out any more quickly moving variations in the signal from each amplifier. The purpose of this is to avoid problems arising from heart contraction and patient respiration. Accordingly, the low pass filters suitably have a long time constant in the range of 5-10 seconds, so as to filter out the cardiac and respiratory movements. However, it is to be noted that in some applications the respiration and cardiac movement information may be useful, such that use of the low pass filters is an option.
Figs. 2(a), 2(b) and 2(c) illustrate the effect of contraction and respiration on the sensed x, y and z signals, and how these effects can be filtered out.
Fig. 2(a) shows an electrocardiogram and a respiration signal
Fig. 2(b) shows the sensed signal which has been sampled at the plus and minus peaks, to develop a signal corresponding to the difference between the plus and minus portions of the sensed 30 kHz pulses.
the amplitude of the sensed signal is illustrated as varying due to respiration and contraction, giving rise to a signal V c , as illustrated in Fig. 2(c).
Such signal changes are removed by the low pass filter, resulting in an accurate position signal of voltage V, illustrated in Fig. 2(c).
the x, y and z outputs from the three channels shown in Fig. 1 are connected to a computer 65, or equivalent apparatus, for calculation of each three-dimensional location.
the outputs are connected to a suitable output, or display 66, for vertical real time display.
position data can be stored for re-display later.
each of the electrodes of the electrode pair on catheter 46 that is used for calibration is connected to a pair of z processing channels, a pair of y processing channels, and a pair of x processing channels.
the two signals are inputted to z filters 50, 50_; y filters 54, 54_; and x filters 57, 57_.
These filters are accurately matched, in order to provide the DV x , DV y and DV z signals.
the clock signals from block 44 are connected through to each of the six filters, to provide digital filtering of the respective pairs of x, y and z signals.
the orthogonal constant current signals are applied across the patient, as represented in Fig. 1. As indicated previously, these respective signals are suitably about 30, 31 and 32 kHz, each with a current of about 0.1 mA. While somewhat lower frequencies can be used, it is noted that lower frequencies, as well as higher currents, have the disadvantage that they are more likely to be picked up in ECG tracings. While higher frequencies are suitable and clearly within the scope of the invention, they require more exacting electronics.
the step of inserting the catheter so that the tip is in the region to be mapped is indicated. This step may, of course, be performed before applying the orthogonal signals.
the step of calibrating the system for determining the a, b and c constants is indicated. As set forth above, this step can be done simultaneously with taking location data.
the catheter tip is moved into a position of interest. For a catheterization procedure which is to lead to ablation, sensing is performed to gather data relating to the heart, such as the location of an arrhythmia focus. Such data gathering techniques are well known in the art.
the location information is determined, by the calculations set forth above, and the sensed information and location are stored and/or mapped.
the flow diagram indicates that the steps of block 76 may be repeated any number of times, at the discretion of the physician.
the catheter tip may be moved to any number of locations, all of which can be identified and automatically mapped in accordance with this procedure.
mapping information is utilized to position the catheter tip, i.e., the catheter tip is moved and located, and when it is at the desired mapped position, ablation is performed for removing a source of the arrhythmia.
ablation is suitably performed by applying a pulse of radio frequency energy to the heart tissue for a period of time, e.g., several minutes.
the typical ablation procedure makes a lesion of about 1 cm in diameter.
the ablation can be repeated at different locations in the vicinity of arrhythmia focus, using the previous mapping data, and determining the exact location, or position of the catheter tip in accordance with this invention.
FIG. 4 there is shown an example of electrical localization, or position measurements, taken during a cardiac catheterization.
a 10 kHz current at .1 mA pulse height was delivered in three orthogonal directions through the patient chest.
X was left to right; Y was head to legs; and Z was frontal chest to dorsal.
Actual catheter tip positions were measured by means of calibrated Roentgen images (centimeters, horizontal axis) and plotted versus measured electrical potentials amplified five times (mV, vertical axis), for each of the X, Y and Z directions.
the catheter tip was positioned at four different places, namely in the high right atrial appendage; on the bundle of HIS in the left ventricle near the mitral annulus; and inside the coronary sinus.
One of the four positions is represented as the reference, at the intersection of the horizontal and vertical axes.
linearity for each of the x, y and z directions is very good.
the accuracy is within mm, depending upon the degree of filtering of variations induced by respiration and heart movement. This accuracy leads to a significant improvement in ablation procedures, since previously after the initial mapping, the physician essentially had to again do fine tuning or remapping when returning to ablate.
the physician can return very quickly to the primary ablation position, and reposition the ablation electrode for producing lesions at precisely defined positions so as to effectively cure and control the arrhythmia.
the reference electrode is placed somewhere on the skin, which has the advantage that it is unlikely to be displaced during the procedure.
a disadvantage of this arrangement is that the cardiac contraction and respiration induced signal amplitude variations are relatively high.
Another option is to use one electrode of a stable catheter within the body area, eg, heart, as the reference electrode. Positioning the reference electrode in another chamber of the heart has the advantage that displacement is relatively unlikely; and respiration and contraction influences are reduced because for a given position of the mapping electrode, both electrodes move simultaneously with respiration and contraction.
the reference catheter electrode may occasionally displace, which renders previous measurements substantially useless.
the source electrodes are used also as reference electrodes, and the source signals are time multiplexed, as disclosed above.
a 90 kHz signal source is used, with respective successive pulses being connected across first the x-x_ electrodes, next the y-y_ electrodes, and then the z-z_ electrodes, so that each pair of electrodes transmits a respective 30 kHz signal.
separation of the sensed voltages is achieved by timing as contrasted to frequency, in a known manner.
the two other pairs of electrodes are available, and can be used as reference electrodes.
both the z and z_ electrodes are connected together as the reference electrode; when the z measurement is being made, the y and y_ electrodes are connected as the reference electrode.
the advantage of this arrangement is that the effective electrode is located roughly in the middle of the patient, close to the heart, and is not likely to dislocate because it involves skin electrodes.
mapping locations which are rather close to a pair of skin electrodes. Due to the curvature of the equipotential lines of the resulting electric field, a slight error could be introduced when the mapping position is not roughly midway between the electrode pair. However, such an error can be compensated for by estimating the position of the mapping electrode between each such electrode pair, and making an appropriate mathematical adjustment.
the approximate position of the mapping electrode can be checked by comparing the y voltage on the z-z_ electrodes with the y voltage on the mapping electrode; comparing the z voltage on the y-y_ electrodes with the z voltage on the mapping electrode; and comparing the x voltage on the y-y_ and/or the z-z_ electrodes with the x voltage on the mapping electrode.
a primary application involves identification of the focus, or exit-site of tachycardia, e.g., ventricular tachycardia (VT).
VT ventricular tachycardia
surface ECGs are obtained during ventricular VT and compared with intracardiac ECGs obtained through the tip electrode at various places within the ventricle.
intracardiac ECGs obtained through the tip electrode at various places within the ventricle.
the exit-site of the VT can be identified.
the pacing sites and the corresponding correlations between paced and VT ECGs can be used to determine the optimal site at which the best correlation between both can be expected.
the system and method of this invention are also applicable for three-dimensional imaging of coronary stenosis.
This can be done by combining echo tip data with three-dimensional data.
a single catheter can be equipped with an echo tip at the end, as well as two distally located electrodes for obtaining dimensional information.
an accurate three-dimensional map can be made for identifying coronary stenosis.
stent placement By obtaining three-dimensional information in accordance with this invention, previously explored catheter positions can be accurately re-located so that a stent can be placed at exactly the same site where, for example, a PCTA had been applied, or where an intraluminal echo-image has been obtained.
the technique can likewise be used for obtaining two-dimensional, or even one-dimensional position data, in applications not involving three-dimensional positioning.

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EP96308472A 1995-11-22 1996-11-22 Mapping-Katheter Expired - Lifetime EP0775466B1 (de)

Applications Claiming Priority (2)

Application Number	Priority Date	Filing Date	Title
US561773		1995-11-22
US08/561,773 US5697377A (en)	1995-11-22	1995-11-22	Catheter mapping system and method

Publications (3)

Publication Number	Publication Date
EP0775466A2 true EP0775466A2 (de)	1997-05-28
EP0775466A3 EP0775466A3 (de)	1999-03-31
EP0775466B1 EP0775466B1 (de)	2003-10-22

Family

ID=24243405

Family Applications (1)

Application Number	Title	Priority Date	Filing Date
EP96308472A Expired - Lifetime EP0775466B1 (de)	1995-11-22	1996-11-22	Mapping-Katheter

Country Status (6)

Country	Link
US (2)	US5697377A (de)
EP (1)	EP0775466B1 (de)
JP (1)	JP3955346B2 (de)
AU (1)	AU714372B2 (de)
CA (1)	CA2189399C (de)
DE (1)	DE69630432T2 (de)

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WO2004103174A1 (en) *	2003-05-21	2004-12-02	Philips Intellectual Property & Standards Gmbh	Apparatus and method for navigating a catheter
US6950689B1 (en)	1998-08-03	2005-09-27	Boston Scientific Scimed, Inc.	Dynamically alterable three-dimensional graphical model of a body region
WO2007111542A1 (en) *	2006-03-27	2007-10-04	St. Jude Medical Ab	Medical system for monitoring and localisation of electrode leads in the heart
EP1867279A3 (de) *	2006-06-14	2008-02-06	Biosense Webster, Inc.	Referenzkatheter zur Impedanzkalibrierung
US7869865B2 (en)	2005-01-07	2011-01-11	Biosense Webster, Inc.	Current-based position sensing
WO2011072507A1 (zh) *	2009-12-15	2011-06-23	四川锦江电子科技有限公司	定位心腔导管的方法和装置
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US8715195B2 (en)	2007-04-11	2014-05-06	Elcam Medical Agricultural Cooperative	System and method for accurate placement of a catheter tip in a patient
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EP4278963A1 (de)	2022-05-19	2023-11-22	Koninklijke Philips N.V.	Steuern der elektrischen signale zwischen einem katheter und einem aufzeichnungssystem
EP4295763A1 (de)	2022-06-23	2023-12-27	Koninklijke Philips N.V.	Erzeugung eines anatomischen modells einer anatomischen kavität
WO2023247159A1 (en)	2022-06-23	2023-12-28	Koninklijke Philips N.V.	Generating an anatomical model of an anatomical cavity
EP4306051A1 (de)	2022-07-14	2024-01-17	Koninklijke Philips N.V.	Bestimmung eines abstandes zwischen pärchen feldempfindlicher sensoren einer interventionsvorrichtung
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EP4356860A1 (de)	2022-10-21	2024-04-24	Koninklijke Philips N.V.	Abbildungsfunktion
US20240252235A1 (en) *	2015-10-01	2024-08-01	Medtronic Ablation Frontiers Llc	Methods and systems to combine rf ablation therapy with device navigation
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EP0775466A3 (de)	1999-03-31
CA2189399C (en)	2008-10-07
JP3955346B2 (ja)	2007-08-08
JPH09168519A (ja)	1997-06-30
AU714372B2 (en)	1999-12-23
AU7184296A (en)	1997-05-29
DE69630432T2 (de)	2004-05-06
DE69630432D1 (de)	2003-11-27
US5983126A (en)	1999-11-09
US5697377A (en)	1997-12-16
CA2189399A1 (en)	1997-05-23
EP0775466B1 (de)	2003-10-22

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